KR20080109999A - Apparatus and method for parameter rollback in self configurable broadband wireless communication system - Google Patents

Abstract

A parameter rollback apparatus and a method thereof in a configurable broad band wireless communications system are provided to manage the operation parameter of a base station according to an environmental change which is unexpected and to manage the operation parameter of the base station according to the wireless environment change. An optimization part determines an optimum operation parameter of a base station. An evaluation part(208) generates the service level of the base station applying the operation parameter. A controller(202) requests the operation parameter roll back to the base station in case that or the service level is the same as or greater than the first threshold level.

Description

PARAMETER ROLLBACK IN SELF-CONFIGURABLE BROADBAND TELECOMMUNICATION SYSTEMS AND METHOD {APPARATUS AND METHOD FOR PARAMETER ROLLBACK IN SELF CONFIGURABLE BROADBAND WIRELESS COMMUNICATION SYSTEM}

1 is a diagram showing a schematic configuration of a broadband wireless communication system according to the present invention;

2 is a block diagram of a management server in a broadband wireless communication system according to an embodiment of the present invention;

3 is a block diagram of a base station in a broadband wireless communication system according to an embodiment of the present invention;

4 is a diagram illustrating an operation parameter rollback control procedure of a management server in a broadband wireless communication system according to an embodiment of the present invention;

5 is a diagram illustrating an operation parameter rollback procedure of a base station in a broadband wireless communication system according to an embodiment of the present invention.

TECHNICAL FIELD The present invention relates to a broadband wireless communication system, and more particularly, to an apparatus and a method for solving a problem caused by an incorrect operation parameter in a self configurable broadband wireless communication system.

In general, when a base station is expanded in a broadband wireless communication network, a system operator should grasp information of other base stations located near the base station to be expanded and information of the base station to be extended. The system operator determines operating parameters to be applied to the base station to be extended based on the above information, and operates the base station according to the determined parameters.

That is, when increasing or decreasing the base station, the system operator must directly intervene each time to determine operating parameters. If the increase and decrease of the base station is frequent, this causes the system operator to spend a lot of time and effort. Therefore, the development of a self configurable wireless communication system for reducing the consumption of time and effort, and for convenient base station addition and expansion, is currently underway.

When a new base station is added to the self-configurable wireless communication system, the base station acquires an optimal operating parameter through an optimization algorithm. This allows the system operator to optimize the system without direct intervention. However, if an unexpected problem occurs after the optimization algorithm is executed, for example, a radio wave interference or a system alarm, performance degradation or service interruption of not only newly expanded base stations but also existing base stations may occur. . Therefore, there is a need for an alternative to solve the error situation and performance degradation problem that occur during the optimization and to immediately deal with the problem that occurs when the environment changes.

Accordingly, an object of the present invention is to provide an apparatus and method for immediately coping with a problem caused by an unexpected environmental change during optimization in a self configurable broadband wireless communication system.

Another object of the present invention is to provide an apparatus and method for managing operating parameters of a base station according to a change in wireless environment in a self-configurable broadband wireless communication system.

It is still another object of the present invention to provide an apparatus and method for rolling back operating parameters of a base station having a sub-threshold performance in a self-configurable broadband wireless communication system.

According to a first aspect of the present invention for achieving the above object, a network management apparatus in a broadband wireless communication system, an optimization unit for determining an optimal operation parameter of the base station, and a service level of the base station to which the operating parameter is applied (Service Level) ) And a controller for requesting rollback of operating parameters to the base station when the service level is greater than or equal to the first threshold level.

According to a second aspect of the present invention for achieving the above object, a base station apparatus in a broadband wireless communication system, OAM (Operator And Manager) for optimizing the operating parameters, and after the optimization, the management server by measuring its performance indicators Report to, and characterized in that it comprises a management unit for controlling to roll back the operating parameters in response to a request to the management server.

According to a third aspect of the present invention for achieving the above object, a method for managing operating parameters of a network management server in a broadband wireless communication system includes determining an optimal operating parameter of a base station, and a service of the base station to which the operating parameter is applied. Calculating a level; and requesting rollback of an operating parameter to the base station when the service level is greater than or equal to a first threshold level.

According to a fourth aspect of the present invention for achieving the above object, a method for managing operating parameters of a base station in a broadband wireless communication system includes a process of optimizing the operating parameters, and after the optimization, a management server by measuring its own performance indicators And reporting back to the management server, and rolling back the operation parameter in response to a request to the management server.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, a description will be given of a technique for rolling back an operating parameter of a base station in a self-configurable broadband wireless communication system.

First, a structure of a broadband wireless communication system and a rollback method of operating parameters according to the present invention will be described with reference to FIG. 1.

As shown in FIG. 1, the broadband wireless communication system according to the present invention includes a control station 110, a plurality of base stations 120-1 to 120-3, and a management server 130. Here, the control station 110 and the management server 130 may be present in plural like the plurality of base stations (120-1 to 120-3).

The control station 110 serves as a gateway of a subnet composed of a plurality of base stations 120-1 to 120-3, thereby providing the plurality of base stations 120-1 to 120-3. Manage backbone network access. The plurality of base stations 120-1 through 120-3 communicate with a terminal through a radio resource directly. Here, only a part of the plurality of base stations 120-1 to 120-3 may be a base station having a self-configuration function or a base station having all a self-configuration function. For the purpose of explanation, it is assumed that base station A 120-1 is a base station having a self-organizing function.

The management server 130 is a remote access server for managing the network equipment of the operator, and handles the failure management of the base station and the control station, changing the operating parameters and the like. In addition, the management server 130 performs optimization of the self-configurable base station. Specifically, when the management server 130 recognizes a hypothesis of a self-configurable base station, the management server 130 takes into account the parameters such as the location of the base station and the distribution of neighboring base stations, and the frequency allocation (FA) of the base station and the cell ID (Cell). Operation parameters such as IDentifier and transmit power are determined.

That is, the base station A (120-1), when the first hypothesis, collects the information necessary for optimization and provides to the management server 130, the management server 130 for the base station A (120-1) Determine and provide operational parameters. For example, the information required for optimization includes one or more of received signal strength and hypothesis position from neighboring base stations. Accordingly, the base station A 120-1 performs communication according to an operation parameter provided from the management server 130.

At this time, according to the present invention, the base station A 120-1 monitors its performance. In other words, to determine whether to optimize the operating parameters, the base station A 120-1 continuously measures its performance indicators and reports them to the management server 130. For example, the performance indicator may include one or more of an average throughput, a carrier to interference and noise ratio (CINR), an alarm that occurs, and a signal strength of a neighboring base station. .

The management server 130 calculates a service level of the base station A 120-1 based on the performance index reported from the base station A 120-1 and the performance index reported to the neighbor base stations. For example, the service level is calculated based on the criteria as shown in Table 1 below.

 Average transfer rate of the base station  Average transfer rate of neighboring base stations  Average CINR of the corresponding base station  Alarm of the corresponding base station  Adjacent Base Station Alarm  Danger State (value = 2) C ₁ % C ₂ % C ₃ %  First alarm list  First alarm list  Remeasurement status (value = 1) M ₁ % M ₂ % M ₃ %  Second alarm list  Second alarm list

In Table 1, C _k is a value smaller than M _k (k = 1, 2, 3), the first alarm list includes alarms that are fatal to the system, and the second alarm list is the first alarm list. Rather than fatal, it contains alarms to be handled. The average data rate is an average data rate assuming that all radio resources are used instead of the data rate measured at the present time. That is, if a small number of terminals are connected to the base station and only some radio resources are used, in this case, the average transmission rate will be measured very low. Therefore, the average data rate for performance evaluation should be calculated on the assumption that all radio resources are used. The average carrier band interference and noise ratio are values for the downlink signal.

The management server 130 checks an item-specific evaluation value for the base station A 120-1 based on the criteria as shown in Table 1, and calculates a service level by adding the evaluation values. In this case, the management server 130 may adjust the degree of contribution for each item to the service level by assigning a weight according to the priority of each item. The management server 130 determines whether to roll back the operation parameter of the base station A 120-1 according to the calculated service level. For example, the management server 130 determines whether to roll back based on the criteria as shown in Table 2 below.

 range  Response method  Service level ≥ critical level  Roll back to previous operating parameter or initial value  Critical level> Service level ≥ Reset level  Redo Optimization  Reset Level> Service Level  Maintain operational parameters

In Table 2, the risk level is greater than the reset level.

That is, the management server 130 calculates the service level of the base station A 120-1 according to the <Table 1>, and determines the method of processing the current operating parameter according to the <Table 2>. In addition, the base station A 120-1 may maintain an optimization state by rolling back an operation parameter, performing an optimization again, or maintaining a current operation parameter according to the determination of the management server 130.

2 is a block diagram of a management server in a broadband wireless communication system according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the management server includes a control unit 202, a communication unit 204, a failure management unit 206, a network optimizer 208, and a performance evaluation unit 210.

The controller 202 controls the overall functions of the management server. For example, when the information for optimization is received from the base station, the controller 202 provides the information for optimization to the network optimizer 208 to control operation parameters. In addition, the control unit 202 collects information for calculating the service level of the base station, and provides the information for calculating the service level to the performance evaluation unit 210 and controls to determine whether to calculate the service level and rollback.

The communication unit 204 performs a signal processing function for exchanging information with a base station. The failure management unit 206 performs failure detection and processing of the base station and the control station. The network optimizer 208 determines an optimization operation parameter of the base station. For example, the network optimizer 208 determines operation parameters such as FA, cell ID, and transmit power by receiving the location of the base station and received signal strength information from neighboring base stations.

The performance evaluator 210 calculates the service level of the base station that is optimized and operated and determines a current operation parameter processing method according to the service level. For example, the processing methods include operational parameter rollback, optimization re-execution, and maintenance of the current operational parameter. In other words, the performance evaluator 210 calculates a service level according to the criteria shown in Table 1 and determines a processing method according to the criteria shown in Table 2. In this case, when the rollback is determined, the target of the rollback may be one of a previous operating parameter or an initial value.

3 is a block diagram of a base station in a broadband wireless communication system according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the base station includes a wired communication unit 310, a self-organizing control unit 320, a communication control unit 330, and a wireless communication unit 340.

The wired communication unit 310 performs a signal processing function for exchanging information with the management server and the control station. The self-configuring controller 320 performs a self-configuring function, that is, a function for obtaining an optimized operating parameter in the network. The communication control unit 330 performs a function for performing wireless communication with the terminal. The wireless communication unit 340 performs a signal processing function for performing communication with the terminal through a radio resource. For example, during downlink communication, the wireless communication unit 340 generates a complex symbol by encoding and modulating a provided bit string, and generates an orthogonal frequency division multiplexing (OFDM) symbol through an inverse fast fourier transform (IFFT) operation. After generating, amplifying and upconverting, the antenna is transmitted through an antenna. In addition, in the optimization setting mode, the wireless communication unit 340 measures the strength of received signals from neighboring base stations. The received signal strength information is provided to the self-organizing control unit 320.

The self-organizing control unit 320 includes an OAM (Operator And Manager) 322, the performance management unit 324. The OAM 322 performs a maintenance function for self-configuration. In particular, in the optimization setting mode, the OAM 322 collects information for optimization and transmits the information to the management server. In this case, the optimization setting mode is entered by the initial construction time of the base station, the request of the management server, the user's operation. For example, the information for optimization includes one or more of the location of the base station and the received signal strength from neighboring base stations. In addition, the OAM 322 provides the communication control unit 330 with the optimized operation parameters received from the management server. For example, the operating parameter includes one or more of FA, cell ID, and transmit power.

The performance manager 324 performs a function for maintaining an operating parameter in an optimized state. In detail, the performance management unit 324 collects performance indicators for determining whether the current operation parameter is an optimized operation parameter and transmits it to the management server. For example, the performance indicator includes one or more of an average rate, an average downlink carrier band interference and noise ratio, an alarm that occurs, and a received signal strength from a neighboring base station. Then, the performance manager 324 triggers the configuration optimizer to roll back the operation parameter or perform the optimization again according to the instruction from the management server. Here, the target of the rollback may be one of a previous operating parameter or an initial value, and is determined according to a system setting.

The communication controller 330 includes an alarm processor 332, a call processor 334, and a traffic processor 336. The alarm processor 332 checks alarms and failures that occur during the operation of the base station. In addition, the alarm processing unit 332 provides the generated alarm information to the self-organizing control unit 320. The call processor 334 performs a signaling function such as generating a control message and interpreting a control message for setting a call with the terminal. The traffic processor 336 performs a function of transmitting and receiving traffic data exchanged with the terminal. In particular, according to the present invention, the traffic processing unit 336 measures the transmission rate and provides the self-configuration control unit 320.

4 illustrates an operation parameter rollback control procedure of a management server in a broadband wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the management server determines whether information for optimization is received from the base station in step 401. For example, the information for optimization includes one or more of the location of the base station and the strength of received signals from neighboring base stations.

When the information for optimization is received, the management server proceeds to step 403 to determine an optimal operation parameter for the base station and transmits the operation parameter to the base station. For example, the operating parameter includes one or more of FA, cell ID, and transmit power.

After determining and transmitting the operating parameter, the management server proceeds to step 405 to collect information for calculating a service level of the base station and calculates a service level. For example, the information for calculating the service level is the information shown in Table 1. Some of this information is obtained directly from the base station, and others are obtained from neighboring base stations.

After calculating the service level, the management server proceeds to step 407 to compare the service level and the risk level. Here, the risk level is a value determined by the system setting.

If the service level is greater than or equal to the risk level, the management server proceeds to step 409 and requests a rollback of operating parameters to the base station.

On the other hand, if the service level is less than the risk level, the management server proceeds to step 411 to compare the service level and the reset level.

If the service level is greater than or equal to the reset level, the management server proceeds to step 413 and requests the base station to perform optimization again.

5 is a flowchart illustrating an operation parameter rollback procedure of a base station in a broadband wireless communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the base station determines whether the neighboring base station is in scan mode in step 501. In other words, the base station checks whether the base station enters the optimization setting mode. For example, the base station enters the optimization setting mode by the initial construction time, the request of the management server, and the user's operation.

In the optimization setting mode, the base station proceeds to step 503 and collects information necessary for optimization. For example, the information required for optimization includes one or more of the location of the base station and the received signal strength from neighboring base stations.

After collecting the information for optimization, the base station proceeds to step 505 and transmits the collected information to the management server.

Thereafter, the base station proceeds to step 507 to check whether the optimum operating parameter is received from the management server. For example, the operating parameter includes one or more of FA, cell ID, and transmit power.

When the operation parameter is received, the base station proceeds to step 509 and performs an operation according to the received operation parameter, that is, performs communication with the terminal.

In step 511, the base station monitors its performance and reports a performance index to the management server. For example, the performance indicator may include one or more of an average data rate, an average downlink carrier band interference and noise ratio, an alarm occurrence, and a received signal from neighboring base stations.

After reporting the performance indicator, the base station proceeds to step 513 and checks whether an operation parameter rollback is requested from the management server.

If rollback is requested, the base station proceeds to step 515 to perform rollback of the operating parameters. Here, the target of the rollback may be one of the previous operating parameters or the initial value, and is determined according to the system setting.

On the other hand, if the rollback is not requested, the base station proceeds to step 517 and checks whether a reset is requested from the management server.

If the reset is requested, the base station returns to step 503. If the reset is not requested, the base station returns to step 509.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, by rolling back the operating parameters of the base station in a self-configurable broadband wireless communication system, it is possible to solve the error situation and performance degradation problem that occur during optimization, You can respond immediately.

Claims (30)

In the network management device in a broadband wireless communication system, An optimization unit for determining an optimal operation parameter of the base station, An evaluation unit for calculating a service level of the base station to which the operation parameter is applied; And a controller for requesting a rollback of an operating parameter to the base station when the service level is greater than or equal to a first threshold level. The method of claim 1, The evaluation unit, An average transmission rate of the base station, a carrier to interference and noise ratio (CINR) of the base station, an alarm occurring in the base station, an average transmission rate of a base station adjacent to the base station, and a base station adjacent to the base station And calculating the service level using information on at least one item of an alarm occurring and an intensity of a received signal from an adjacent base station measured by the base station. The method of claim 2, The evaluation unit, The service level is calculated by checking the range of the base station included in the corresponding item according to the information collected for each item, checking the value of the range, and summing the evaluation values of the respective items. Device characterized in that. The method of claim 3, wherein The evaluation unit, And calculating the service level by adding different weights to the respective items. The method of claim 1, The control unit, And if the service level is less than the first threshold level and greater than or equal to the second threshold level, requesting the base station to perform optimization again. The method of claim 1, The optimizer, And determining operating parameters of the base station using variables for optimization received from the base station. The method of claim 6, The variable for optimization is And at least one of a location of the base station and received signal strengths from adjacent base stations measured by the base station. The method of claim 1, The operation parameter is, And at least one of a frequency allocation (FA), a cell ID (cell IDentifier), and a transmit power. A base station apparatus in a broadband wireless communication system, OAM (Operator And Manager) to optimize the operating parameters, After the optimization, characterized in that it comprises a management unit for measuring its own performance indicator to report to the management server, and to roll back the operating parameters in response to a request to the management server. The method of claim 9, The operation parameter is, And at least one of a frequency allocation (FA), a cell ID (cell IDentifier), and a transmit power. The method of claim 9, The performance index, And at least one of an average rate, an alarm occurring, a carrier to interference and noise ratio (CINR). The method of claim 9, And the rollback target is a previous operation parameter or an initial value. The method of claim 9, The OAM is, Collecting the parameters for optimization and transmitting to the management server, and characterized by optimizing by controlling to operate in accordance with the operating parameters received from the management server. The method of claim 13, The variable for optimization is And at least one of the location of the base station and the strength of received signals from neighboring base stations. The method of claim 9, The management unit, Triggering the OAM to re-run the optimization as required by the management server. A method of managing operating parameters of a network management server in a broadband wireless communication system, Determining an optimal operation parameter of the base station, Calculating a service level of the base station to which the operating parameter is applied; If the service level is greater than or equal to the first threshold level, requesting a rollback of an operating parameter to the base station. The method of claim 16, The service level is, An average transmission rate of the base station, a carrier to interference and noise ratio (CINR) of the base station, an alarm occurring in the base station, an average transmission rate of a base station adjacent to the base station, and a base station adjacent to the base station The alarm is generated using the information on at least one item of the received signal strength from the neighboring base station measured by the base station. The method of claim 17, The service level is, According to the information collected for each item, it is calculated by checking the range that the base station is included in the corresponding item, the value of the range (Value), and then summing the evaluation values of each item Way. The method of claim 18, The service level is, And calculating by adding different weights to the items. The method of claim 16, If the service level is less than the first threshold level and greater than or equal to the second threshold level, requesting the base station to perform optimization again. The method of claim 16, The operation parameter is, And determined using a variable for optimization received from the base station. The method of claim 21, The variable for optimization is And at least one of a location of the base station and received signal strengths from neighbor base stations measured by the base station. The method of claim 16, The operation parameter is, And at least one of a frequency allocation (FA), a cell ID (cell IDentifier), and a transmit power. A method of managing operating parameters of a base station in a broadband wireless communication system, Optimizing the operating parameters; After the optimization, the process of measuring their performance indicators and reporting to the management server, Rolling back the operation parameters in response to a request to the management server. The method of claim 24, The operation parameter is, And at least one of a frequency allocation (FA), a cell ID (cell IDentifier), and a transmit power. The method of claim 24, The performance index, And at least one of an average rate, an alarm occurring, a carrier to interference and noise ratio (CINR). The method of claim 24, The target of the rollback, characterized in that the previous operating parameter or the default (Default) value. The method of claim 24, The process of optimizing the operating parameters, Collecting the variables for optimization and sending them to the management server; And checking the operation parameter received from the management server. The method of claim 28, The variable for optimization is And at least one of a location of the base station and received signal strengths from neighboring base stations. The method of claim 24, And re-optimizing according to the request of the management server.

Images